/* Hello, Emacs, this is -*-C-*-
 * $Id: fig.trm,v 1.71 2015/03/24 18:49:11 sfeam Exp $
 */

/* GNUPLOT - fig.trm */

/*[
 * Copyright 1990 - 1993, 1998, 2004
 *
 * Permission to use, copy, and distribute this software and its
 * documentation for any purpose with or without fee is hereby granted,
 * provided that the above copyright notice appear in all copies and
 * that both that copyright notice and this permission notice appear
 * in supporting documentation.
 *
 * Permission to modify the software is granted, but not the right to
 * distribute the complete modified source code.  Modifications are to
 * be distributed as patches to the released version.  Permission to
 * distribute binaries produced by compiling modified sources is granted,
 * provided you
 *   1. distribute the corresponding source modifications from the
 *    released version in the form of a patch file along with the binaries,
 *   2. add special version identification to distinguish your version
 *    in addition to the base release version number,
 *   3. provide your name and address as the primary contact for the
 *    support of your modified version, and
 *   4. retain our contact information in regard to use of the base
 *    software.
 * Permission to distribute the released version of the source code along
 * with corresponding source modifications in the form of a patch file is
 * granted with same provisions 2 through 4 for binary distributions.
 *
 * This software is provided "as is" without express or implied warranty
 * to the extent permitted by applicable law.
]*/

/*
 * This file is included by ../term.c.
 *
 * This terminal driver supports:
 *  Fig graphics language
 *
 * AUTHORS
 *  Micah Beck, David Kotz
 *
 * send your comments or suggestions to (gnuplot-info@lists.sourceforge.net).
 *
 */

/*
 * Original for Fig code output by Micah Beck, 1989
 * Department of Computer Science, Cornell University
 * Updated by David Kotz for gnuplot 2.0
 * More efficient output by Ian Dall
 * Updated to FIG 2.1 (with color) format by Vivek Khera
 * Updated to FIG 3.1 (higher resolution) format by Ian MacPhedran, Jan 1995
 * Updated to conform to newterm format Ian MacPhedran, Apr 1995
 * Point-count option joachim.selinger@ins.uni-stuttgart.de (JFS) Feb  9 1996
 * More options (portrait/landscape, metric/inches, size, fontsize, thickness)
 * plus symbols and depth/thickness by bernlohr@eu1.mpi-hd.mpg.de (KB) Aug 15 1996
 * Added PM3D functionality Ian MacPhedran, April 15 1999
 * Take into account 'set palette maxcolors' Petr Mikulik, June 11 2002
 * Don't reset options when 'set term fig <new options>', Petr Mikulik, Aug 24 2002
 * Ethan A Merritt - May 2008:
 *   Bring into line with other terminals for point types, size syntax, font spec
 * Ethan A Merritt - Mar 2015:
 *   Load user-defined RGB linetype colors and gnuplot's set of named RGB colors
 */

#include "driver.h"

#ifdef TERM_REGISTER
register_term(fig)
#endif /* TERM_REGISTER */

#ifdef TERM_PROTO
TERM_PUBLIC void FIG_options __PROTO((void));
TERM_PUBLIC void FIG_init __PROTO((void));
TERM_PUBLIC void FIG_graphics __PROTO((void));
TERM_PUBLIC void FIG_text __PROTO((void));
TERM_PUBLIC void FIG_linetype __PROTO((int linetype));
TERM_PUBLIC void FIG_move __PROTO((unsigned int x, unsigned int y));
TERM_PUBLIC void FIG_vector __PROTO((unsigned int ux, unsigned int uy));
TERM_PUBLIC void FIG_arrow __PROTO((unsigned int sx, unsigned int sy, unsigned int ex, unsigned int ey, int head));
TERM_PUBLIC void FIG_put_text __PROTO((unsigned int x, unsigned int y, const char *str));
TERM_PUBLIC int FIG_justify_text __PROTO((enum JUSTIFY mode));
TERM_PUBLIC int FIG_text_angle __PROTO((int ang));
TERM_PUBLIC void FIG_pointsize __PROTO((double arg_pointsize));
TERM_PUBLIC void FIG_linewidth __PROTO((double linewidth));
TERM_PUBLIC void FIG_reset __PROTO((void));
TERM_PUBLIC void FIG_lpoint __PROTO((unsigned int x, unsigned int y, int number));
TERM_PUBLIC void FIG_boxfill __PROTO((int style, unsigned int x, unsigned int y, unsigned int w, unsigned int h));
TERM_PUBLIC int FIG_make_palette (t_sm_palette *);
/* TERM_PUBLIC void FIG_previous_palette (void); */
TERM_PUBLIC void FIG_set_color (t_colorspec *);
TERM_PUBLIC void FIG_filled_polygon (int, gpiPoint *);
TERM_PUBLIC void FIG_layer __PROTO((t_termlayer syncpoint));

#define GOT_FIG_PROTO
#endif /* TERM_PROTO */

#ifndef TERM_PROTO_ONLY
#ifdef TERM_BODY

#include "object.h"		/* modified from the XFig distribution */
#define FIG_DEFAULT DEFAULT
#define FIG_ROMAN_FONT (0)	/* actually, the default font */

#if METRIC
# define INCH FALSE
#else
# define INCH TRUE
#endif

/* These should not be defined elsewhere - ACZ */
/* This is now 1200 per inch */
#define FIG_IRES        (1200)
/* This is now 450 per cm */
#define FIG_MRES        (450)

#define FIG_COORD_SYS   2
#define FIG_ORIENT (FIG_portrait?"Portrait":"Landscape")
/* Could be "Portrait" */
#define FIG_JUST        "Center"
/* Could be "Flush Left" */
#define FIG_UNIT (FIG_inches?"Inches":"Metric")
/* Could be "Inches" */
#define FIG_PAPER       (FIG_inches ? "Letter" : "A4")
#define FIG_MAGNIFICATION  100.0
#define FIG_MULTIPAGE   "Single"
/* Could be "Multiple" */
#define FIG_TRANSCOLOR  -2
/* none: -2; background: -1; 0..31: foreground colors */
/* This could probably be dropped with the support of GIFs. */
#define FIG_TRUERES (FIG_inches ? FIG_IRES : FIG_MRES) /* ACZ */
#define FIG_DEFAULTVERSION "3.2"

#define FIG_HTIC(inch)  ((inch) ? (5*FIG_IRES)/80 : (15*FIG_MRES)/100)
#define FIG_VTIC(inch)  ((inch) ? (5*FIG_IRES)/80 : (15*FIG_MRES)/100)
#define FIG_FONT_S      (10)	/* size in points */
#define FIG_MAX_POINTS  99999L	/* almost infinite ;-) */

/* height of font in pixels: */
#define FIG_to_pixel_v(inch,s) (((inch) ? (s)*FIG_IRES : (s)*FIG_MRES*2.54) / 72 * 3/4)
/* This is fudged to enlarge the drawing area, but gives fairly good results */
/* this is a guess at the width: */
#define FIG_to_pixel_h(inch,s) (FIG_to_pixel_v(inch,s)*6/10)

#define FIG_VCHAR       FIG_to_pixel_v(INCH,FIG_FONT_S)	/* just for default, */
#define FIG_HCHAR       FIG_to_pixel_h(INCH,FIG_FONT_S)	/* not really used   */

/* Text flags (ULIG) */
enum FIG_TEXT_STYLEBITS {
    FIG_TEXT_RIGID      = 1<<0,
    FIG_TEXT_SPECIAL    = 1<<1,
    FIG_TEXT_POSTSCRIPT = 1<<2,
    FIG_TEXT_HIDDEN     = 1<<3
};
#define FIG_TEXT_NORMAL      FIG_TEXT_POSTSCRIPT

enum FIG_poly_stat {
    FIG_poly_new, FIG_poly_part
};

static int FIG_posx;
static int FIG_posy;
static long FIG_poly_vec_cnt;
static int FIG_depth = 10;
static int FIG_linedepth = 10;
static int FIG_thickness = 1;
static int FIG_default_thickness = 1;
static double FIG_current_pointsize = 1.;
static double FIG_current_linewidth = 1.;

/* Maximum number of points per POLYLINE.
   Default 1000 (hardcoded in help section as well) */
static int FIG_poly_vec_max = 999;	/* JFS */

static enum FIG_poly_stat FIG_polyvec_stat;

/* up to 128 slots used for user-defined RGB colors gnuplot's named colors */
/* 128 slots for a palette */
static unsigned int FIG_RGB_colors[256];

/* 5 inches wide by 3 inches high */
#define FIG_XMAX(inch) ((inch) ? 5*FIG_IRES : 12*FIG_MRES)
#define FIG_YMAX(inch) ((inch) ? 3*FIG_IRES :  8*FIG_MRES)

#define FIG_XOFF(inch) ((inch) ? FIG_IRES : 2*FIG_MRES)
#define FIG_YOFF(inch) ((inch) ? FIG_IRES : 2*FIG_MRES)


#define BFIG_HTIC(inch) ((inch) ? (7*FIG_IRES)/80 : (20*FIG_MRES)/100)
#define BFIG_VTIC(inch) ((inch) ? (7*FIG_IRES)/80 : (20*FIG_MRES)/100)
#define BFIG_FONT_S     (16)	/* size in points */
#define BFIG_VCHAR      FIG_to_pixel_v(INCH,BFIG_FONT_S)  /* height in pixels of font */
#define BFIG_HCHAR      FIG_to_pixel_h(INCH,BFIG_FONT_S)  /* this is a guess at the width */

static F_point *FIG_points = NULL;	/* Array for the collection of points for
					   POLYLINE, allocated on demand. */
static F_line FIG_line;

/* 8 inches wide by 5 inches high */
#define BFIG_XMAX(inch) ((inch) ? 8*FIG_IRES : 20*FIG_MRES)
#define BFIG_YMAX(inch) ((inch) ? 5*FIG_IRES : 15*FIG_MRES)

#define BFIG_XOFF(inch) ((inch) ? FIG_IRES : 2*FIG_MRES)
#define BFIG_YOFF(inch) ((inch) ? FIG_IRES : 2*FIG_MRES)


static int FIG_type;		/* negative types use real lines */
static float FIG_spacing;	/* length of dash or dot spacing */
static int FIG_justify;		/* Fig justification T_*_JUSTIFIED */
static float FIG_angle;		/* Fig text angle (in radians) */
static int FIG_use_color = FALSE;	/* do we use color or not? */
static int FIG_is_big = FALSE;	/* big plot ? */
static int FIG_color = DEFAULT;	/* which color to use */
static int FIG_xoff = FIG_XOFF(INCH);
static int FIG_yoff = FIG_YOFF(INCH);
static int FIG_font_id = FIG_ROMAN_FONT;
static int FIG_font_s = FIG_FONT_S;
static int FIG_portrait = FALSE;
static int FIG_inches = INCH;
static int FIG_text_flags = FIG_TEXT_NORMAL;    /* whether text is special or hidden etc. */
static char FIG_version[MAX_ID_LEN+1] = FIG_DEFAULTVERSION;  /* file format version */
static int FIG_solid = FALSE;                   /* dashed lines or not */
static int FIG_palette_set = FALSE;	/* PM3D Palette Set ? */
static int FIG_palette_size = 128;	/* Number of colours in palette */
static int FIG_palette_offst = 32;	/* Offset from zero for palette colours */
static int FIG_rgb_color_offset = 32;	/* First user-defined RGB color */
static int FIG_fill_style = 20;		/* Full saturation */

static void FIG_poly_clean __PROTO((enum FIG_poly_stat fig_stat));

enum FIG_id {
    FIG_MONOCHROME, FIG_COLOR,
    FIG_SMALL, FIG_BIG,
    FIG_INCHES, FIG_METRIC,
    FIG_PORTRAIT, FIG_LANDSCAPE,
    FIG_SIZE, FIG_FONT, FIG_FONTSIZE,
    FIG_THICKNESS, FIG_DEPTH, FIG_POINTSMAX,
    FIG_SOLID, FIG_DASHED,
    FIG_NORMALTEXT, FIG_SPECIALTEXT, FIG_HIDDENTEXT, FIG_RIGIDTEXT,
    FIG_VERSION, FIG_OTHER
};

static struct gen_table FIG_opts[] =
{
    { "b$ig", FIG_BIG },
    { "c$olor", FIG_COLOR },
    { "c$olour", FIG_COLOR },
    { "da$shed", FIG_DASHED },
    { "de$pth", FIG_DEPTH },
    { "font", FIG_FONT },
    { "f$ontsize", FIG_FONTSIZE },
    { "in$ches", FIG_INCHES },
    { "l$andscape", FIG_LANDSCAPE },
    { "me$tric", FIG_METRIC },
    { "mo$nochrome", FIG_MONOCHROME },
    { "poi$ntsmax", FIG_POINTSMAX },
    { "por$trait", FIG_PORTRAIT },
    { "si$ze", FIG_SIZE },
    { "sm$all", FIG_SMALL },
    { "so$lid", FIG_SOLID },
    { "linew$idth", FIG_THICKNESS },
    { "t$hickness", FIG_THICKNESS },
    { "texth$idden", FIG_HIDDENTEXT },
    { "textn$ormal", FIG_NORMALTEXT },
    { "textr$igid", FIG_RIGIDTEXT },
    { "texts$pecial", FIG_SPECIALTEXT },
    { "v$ersion", FIG_VERSION },
    { NULL, FIG_OTHER }
};

const struct gen_table FIG_fonts[] =
{
    { "Times Roman",  0 },
    { "Times Italic",  1 },
    { "Times Bold",  2 },
    { "Times Bold Italic",  3 },
    { "AvantGarde Book",  4 },
    { "AvantGarde Book Oblique",  5 },
    { "AvantGarde Demi",  6 },
    { "AvantGarde Demi Oblique",  7 },
    { "Bookman Light",  8 },
    { "Bookman Light Italic",  9 },
    { "Bookman Demi", 10 },
    { "Bookman Demi Italic", 11 },
    { "Courier", 12 },
    { "Courier Oblique", 13 },
    { "Courier Bold", 14 },
    { "Courier Bold Oblique", 15 },
    { "Helvetica", 16 },
    { "Helvetica Oblique", 17 },
    { "Helvetica Bold", 18 },
    { "Helvetica Bold Oblique", 19 },
    { "Helvetica Narrow", 20 },
    { "Helvetica Narrow Oblique", 21 },
    { "Helvetica Narrow Bold", 22 },
    { "Helvetica Narrow Bold Oblique", 23 },
    { "New Century Schoolbook Roman", 24 },
    { "New Century Schoolbook Italic", 25 },
    { "New Century Schoolbook Bold", 26 },
    { "New Century Schoolbook Bold Italic", 27 },
    { "Palatino Roman", 28 },
    { "Palatino Italic", 29 },
    { "Palatino Bold", 30 },
    { "Palatino Bold Italic", 31 },
    { "Symbol", 32 },
    { "Zapf Chancery Medium Italic", 33 },
    { "Zapf Dingbats", 34 },
    { NULL, -1}
};

TERM_PUBLIC void
FIG_options()
{
    int parse_error = FALSE;
    long temp_max;
    unsigned int tmax_t;
    double xsize_t = 0, ysize_t = 0;
    char text_flags[256]; /* for description only */

#if 0
    /* Terminals should not reset options to defaults. */
    FIG_use_color = FALSE;	/* default */
    FIG_is_big = FALSE;		/* default */
    FIG_portrait = FALSE;
    FIG_font_id = FIG_ROMAN_FONT;
    FIG_font_s = 0;
    FIG_default_thickness = 1;
    xsize_t = ysize_t = 0.;
    FIG_inches = INCH;
    FIG_text_flags = FIG_TEXT_NORMAL;
    FIG_solid = FALSE;
    strcpy( FIG_version, FIG_DEFAULTVERSION );
#endif

    while (!END_OF_COMMAND) {
	switch(lookup_table(&FIG_opts[0],c_token)) {
	case FIG_MONOCHROME:
	    FIG_use_color = FALSE;
	    c_token++;
	    break;
	case FIG_COLOR:
	    FIG_use_color = TRUE;
	    c_token++;
	    break;
	case FIG_SMALL:
	    FIG_is_big = FALSE;
	    c_token++;
	    break;
	case FIG_BIG:
	    FIG_is_big = TRUE;
	    c_token++;
	    break;
	case FIG_INCHES:
	    FIG_inches = TRUE;
	    c_token++;
	    break;
	case FIG_METRIC:
	    FIG_inches = FALSE;
	    c_token++;
	    break;
	case FIG_SOLID:
	    FIG_solid = TRUE;
	    c_token++;
	    break;
	case FIG_DASHED:
	    FIG_solid = FALSE;
	    c_token++;
	    break;
	case FIG_NORMALTEXT:
	    FIG_text_flags = FIG_TEXT_NORMAL;
	    c_token++;
	    break;
	case FIG_SPECIALTEXT:
	    FIG_text_flags |= FIG_TEXT_SPECIAL;
            FIG_text_flags &= ~FIG_TEXT_POSTSCRIPT;
	    FIG_font_id = 0;
	    c_token++;
	    break;
	case FIG_HIDDENTEXT:
	    FIG_text_flags |= FIG_TEXT_HIDDEN;
	    c_token++;
	    break;
	case FIG_RIGIDTEXT:
	    FIG_text_flags |= FIG_TEXT_RIGID;
	    c_token++;
	    break;
	case FIG_PORTRAIT:
	    FIG_portrait = TRUE;
	    c_token++;
	    break;
	case FIG_LANDSCAPE:
	    FIG_portrait = FALSE;
	    c_token++;
	    break;
	case FIG_SIZE:
	    c_token++;
	    if (END_OF_COMMAND) {
		int_error(c_token, "size: 2 numbers expected");
	    } else {
		xsize_t = real_expression();
		if (equals(c_token,","))
		    c_token++;
		if (END_OF_COMMAND) {
		    int_error(c_token, "size: 2 numbers expected");
		    xsize_t = 0.;
		} else {
		    ysize_t = real_expression();
		}
		if (xsize_t < 2. || ysize_t < 2. || xsize_t > 99. || ysize_t > 99.) {
		    if (xsize_t != 0. || ysize_t != 0.)
			int_error(c_token, "size: out of range");
		    xsize_t = ysize_t = 0.;
		}
	    }
	    break;
	case FIG_FONT:
	    {
	    char *fontname;
	    int sep;
	    c_token++;
	    if (END_OF_COMMAND || !((fontname = try_to_get_string())))
		int_error(c_token, "expecting font name");
	    sep = strcspn(fontname,",");
	    sscanf (&(fontname[sep+1]),"%d",&FIG_font_s);
	    fontname[sep] = '\0';
	    FIG_font_id = lookup_table_entry(FIG_fonts, fontname);
	    if (FIG_font_id < 0)
		FIG_font_id = FIG_ROMAN_FONT;
	    free(fontname);
	    break;
	    }
	case FIG_FONTSIZE:
	    c_token++;
	    FIG_font_s = int_expression();
	    break;
	case FIG_THICKNESS:
	    c_token++;
	    if (END_OF_COMMAND) {
		int_error(c_token, "thickness: number expected");
	    } else {
		FIG_default_thickness = int_expression();
		if (FIG_default_thickness < 1 || FIG_default_thickness > 10) {
		    int_error(c_token - 1, "thickness out of range");
		    FIG_default_thickness = 1;
		}
	    }
	    break;
	case FIG_DEPTH:
	    c_token++;
	    if (END_OF_COMMAND) {
		int_error(c_token, "depth: number expected");
	    } else {
		FIG_depth = int_expression();
		if (FIG_depth < 0 || FIG_depth > 99) {
		    int_error(c_token - 1, "depth out of range");
		    FIG_depth = 10;
		}
		FIG_linedepth = FIG_depth;
	    }
	    break;
	case FIG_POINTSMAX:
	    /* Skip the word and then expect the number ! */
	    c_token++;
	    if (END_OF_COMMAND) {
		int_error(c_token,
			  "max. points per polyline: number expected");
	    } else {
		temp_max = (long) real_expression();
		/* Now check the range for the number */
		if ((temp_max > 1) && (temp_max < (FIG_MAX_POINTS + 2))) {
		    /* OK. subtract one to the right number! See other numbers... */
		    FIG_poly_vec_max = temp_max - 1;
		} else {
		    int_error(c_token,
			      "pointsmax: number out of range (2,%ld)",
			      (FIG_MAX_POINTS + 1));
		}
	    }
	    break;
	case FIG_VERSION:
	    c_token++;
	    if (END_OF_COMMAND) {
		int_error(c_token, "version: 3.1 or 3.2 expected");
	    } else {
                copy_str( FIG_version, c_token, MAX_ID_LEN );
                c_token++;
                if( strcmp( FIG_version, "3.1" ) != 0 &&
                    strcmp( FIG_version, "3.2" ) != 0 ) {
                    int_error(c_token, "wrong version number, must be 3.1 or 3.2");
                }
	    }
	    break;
	case FIG_OTHER:
	default:
	    parse_error = TRUE;
	    int_error(c_token, "unrecognized option");
	    break;
	}
    }

    if( FIG_text_flags == FIG_TEXT_NORMAL ) {
        strcpy( text_flags, " textnormal" );
    } else {
        sprintf( text_flags, "%s%s%s",
                 (FIG_text_flags & FIG_TEXT_SPECIAL) ? " textspecial" : "",
                 (FIG_text_flags & FIG_TEXT_HIDDEN) ? " texthidden" : "",
                 (FIG_text_flags & FIG_TEXT_RIGID) ? " textrigid" : ""
               );
    }

    sprintf(term_options, "%s %s %s %d %s %s %s%s %s \"%s,%d\" %s %d %s %d %s %s",
	    FIG_use_color ? "color" : "monochrome",
	    FIG_is_big ? "big" : "small",
	    "pointsmax",
	    FIG_poly_vec_max + 1,
	    FIG_portrait ? "portrait" : "landscape",
	    FIG_inches ? "inches" : "metric",
            FIG_solid ? "solid" : "dashed",
	    text_flags,
	    "font", FIG_fonts[FIG_font_id].key,
	    /* fontsize */ (FIG_font_s > 0 ? FIG_font_s :
			 (FIG_is_big ? BFIG_FONT_S : FIG_FONT_S)),
	    "linewidth", FIG_default_thickness, "depth", FIG_depth,
            "version", FIG_version );	/* JFS, KB, ULIG */
    if (xsize_t > 0. && ysize_t > 0.) {
	if (xsize_t - (int) xsize_t == 0. && ysize_t - (int) ysize_t == 0.)
	    sprintf(term_options + strlen(term_options),
		    " size %d %d", (int) xsize_t, (int) ysize_t);
	else
	    sprintf(term_options + strlen(term_options),
		    " size %f %f", xsize_t, ysize_t);
    }
    if (!FIG_is_big) {
	if (FIG_font_s <= 0)	/* KB */
	    FIG_font_s = FIG_FONT_S;
	term->xmax = FIG_XMAX(FIG_inches);
	term->ymax = FIG_YMAX(FIG_inches);
	term->v_tic = FIG_VTIC(FIG_inches);
	term->h_tic = FIG_HTIC(FIG_inches);
	FIG_xoff = FIG_XOFF(FIG_inches);
	FIG_yoff = FIG_YOFF(FIG_inches);
    } else {
	if (FIG_font_s <= 0)	/* KB */
	    FIG_font_s = BFIG_FONT_S;
	term->xmax = BFIG_XMAX(FIG_inches);
	term->ymax = BFIG_YMAX(FIG_inches);
	term->v_tic = BFIG_VTIC(FIG_inches);
	term->h_tic = BFIG_HTIC(FIG_inches);
	FIG_xoff = BFIG_XOFF(FIG_inches);
	FIG_yoff = BFIG_YOFF(FIG_inches);
    }
    if (FIG_portrait) {		/* KB */
	tmax_t = term->xmax;
	term->xmax = term->ymax;
	term->ymax = tmax_t;
    }
    if (xsize_t > 0. && ysize_t > 0.) {
	term->xmax = (unsigned int) (xsize_t * FIG_TRUERES);
	term->ymax = (unsigned int) (ysize_t * FIG_TRUERES);
    }
    term->v_char = FIG_to_pixel_v(FIG_inches, FIG_font_s);
    term->h_char = FIG_to_pixel_h(FIG_inches, FIG_font_s);
    FIG_thickness = FIG_default_thickness;
    if (parse_error) {		/* JFS, KB */
	int_error(c_token, "unrecognized option");
    }
}


static void
FIG_poly_clean(enum FIG_poly_stat fig_stat)
{
    int i, j;
    int cap_style;

    if (fig_stat == FIG_poly_part) {
	cap_style = (FIG_line.style==DOTTED_LINE)
	    ? CAP_ROUND : FIG_line.cap_style;
	fprintf(gpoutfile,
		"%d %d %d %d %d %d %d %d %d %9.3f %d %d %d %d %d %ld\n\t",
		O_POLYLINE, FIG_line.type, FIG_line.style, FIG_line.thickness,
		FIG_line.pen_color, FIG_line.fill_color, FIG_line.depth,
		FIG_line.pen_style, FIG_line.fill_style, FIG_line.style_val,
		FIG_line.join_style, cap_style, FIG_line.radius,
		0, 0, FIG_poly_vec_cnt);

	j = 0;
	for (i = 0; i < FIG_poly_vec_cnt; i++) {
	    fprintf(gpoutfile, " %d %d", FIG_points[i].x, FIG_points[i].y);
	    if (j++ > 4 && i != FIG_poly_vec_cnt - 1) {
		fputs("\n\t", gpoutfile);
		j = 0;		/* JFS */
	    }
	}
	if (j != 0) {
	    putc('\n', gpoutfile);
	}
	/* Give the memory back to the system because we are done with this
	 * polyline. Make sure FIG_points contains NULL afterwards!
	 */
	free(FIG_points);
	FIG_points = NULL;
    }
    FIG_polyvec_stat = FIG_poly_new;
}


TERM_PUBLIC void
FIG_init()
{
    FIG_posx = FIG_posy = 0;
    FIG_polyvec_stat = FIG_poly_new;
    FIG_linetype(-1);
    FIG_justify_text(LEFT);
    FIG_text_angle(0);

    FIG_palette_set = FALSE;    /* PM3D Palette Set ? */
    FIG_line.tagged = FIG_DEFAULT;
    FIG_line.distrib = FIG_DEFAULT;
    FIG_line.type = T_POLYLINE;
    FIG_line.style = 0;
    FIG_line.thickness = FIG_thickness;
    FIG_line.fill_style = -1;
    FIG_line.depth = FIG_linedepth;
    FIG_line.pen_style = 0;
    FIG_line.for_arrow = NULL;
    FIG_line.back_arrow = NULL;
    FIG_line.cap_style = 0;
    FIG_line.join_style = 0;
    FIG_line.style_val = 0.0;
    FIG_line.radius = 0;
    FIG_line.pic = NULL;
    FIG_line.next = NULL;

    /* Add further versions headers below (ULIG). There is probably more work to be done */
    /* than only changing the header in future xfig versions */

    if( strcmp(FIG_version, "3.1") == 0 ) {
        fprintf( gpoutfile,
                 "#FIG 3.1\n%s\n%s\n%s\n%d %d\n",
                 FIG_ORIENT,
                 FIG_JUST,
                 FIG_UNIT,
                 FIG_IRES, FIG_COORD_SYS
               );
    } else if( strcmp(FIG_version, "3.2") == 0 ) {
        fprintf( gpoutfile,
                 "#FIG 3.2\n%s\n%s\n%s\n%s\n%6.2f\n%s\n%d\n%d %d\n",
                 FIG_ORIENT,
                 FIG_JUST,
                 FIG_UNIT,
                 FIG_PAPER,
                 FIG_MAGNIFICATION,
                 FIG_MULTIPAGE,
                 FIG_TRANSCOLOR,
                 FIG_IRES, FIG_COORD_SYS
               );
    }
}


TERM_PUBLIC void
FIG_graphics()
{
    int i, ncolors;
    struct linestyle_def *this;
    extern struct gen_table default_color_names_tbl[];

    FIG_posx = FIG_posy = 0;
    FIG_polyvec_stat = FIG_poly_new;

    if (!FIG_use_color)
	return;

    /* Dump current set of user-defined RGB linetype colors */
    ncolors = 0;
    memset(FIG_RGB_colors, 0, sizeof(FIG_RGB_colors));
    for (this = first_perm_linestyle; this != NULL; this = this->next) {
	if (this->lp_properties.pm3d_color.type == TC_RGB) {
	    /* Load color into FIG_RGB_colors */
	    FIG_RGB_colors[ncolors] = this->lp_properties.pm3d_color.lt;
	    FIG_RGB_colors[ncolors] &= 0xffffff;	/* No alpha channel */
	    /* Write it to the output file */
	    fprintf(gpoutfile, "%d %d #%2.2x%2.2x%2.2x\n",
		    O_COLOR_DEF, FIG_rgb_color_offset + ncolors,
		    (FIG_RGB_colors[ncolors] >> 16) & 0xff,
		    (FIG_RGB_colors[ncolors] >> 8)  & 0xff,
		    (FIG_RGB_colors[ncolors]) & 0xff );
	    ncolors++;
	}
	if (ncolors >= 128)
	    break;
    }

    /* Now dump gnuplot's set of named RGB colors */
    for (i=0; i<96; i++) {
	int colorval = default_color_names_tbl[i].value;
	if (FIG_rgb_color_offset + ncolors >= 128)
	    break;
	fprintf(gpoutfile, "%d %d #%2.2x%2.2x%2.2x\n",
		    O_COLOR_DEF, FIG_rgb_color_offset + ncolors,
		    (colorval >> 16) & 0xff,
		    (colorval >> 8)  & 0xff,
		    (colorval) & 0xff );
	FIG_RGB_colors[ncolors] = colorval;
	ncolors++;
    }

    /* This should leave space in the header for a 128-entry color palette */
    FIG_palette_offst = 32 + ncolors;

}


TERM_PUBLIC void
FIG_text()
{
    /* there is no way to have separate pictures in a FIG file */
    FIG_poly_clean(FIG_polyvec_stat);
    FIG_posx = FIG_posy = 0;
    fflush(gpoutfile);
}


/* Line types for FIG work like this:
 *  for monochrome:
 *  -2 : solid (border)
 *  -1 : dotted 4 (axes)
 *   0 : solid (first curve)
 *   1 : dotted 3
 *   2 : dashed 3
 *   3 : dotted 6
 *   4 : dashed 6
 *   ... ...
 *  for color, cycle through colors. once colors are used up, repeat colors
 *   but start using dashed lines of different dash length. don't use white
 *   as a color.
 */

TERM_PUBLIC void
FIG_linetype(int linetype)		/* expect linetype >= -2 */
{
    int last_FIG_type = FIG_type;
    int last_FIG_spacing = FIG_spacing;
    int last_FIG_color = FIG_color;
    int last_FIG_depth = FIG_linedepth;
    int last_FIG_thickness = FIG_thickness;

    /* mapping of fig color codes to color sequence as in the postscript terminal */
#define npscolors 9
    int fig2pscolors[npscolors] = {
	4 /*red*/, 2 /*green*/, 1 /*blue*/,
	5 /*magenta*/, 3 /*cyan*/, 6 /*yellow*/,
	0 /*black*/, 26 /*brown*/,
	11 /*use LtBlue instead of light gray*/
	/* note: black=1, white=8 */
    };

    FIG_linedepth = FIG_depth;
    FIG_thickness = FIG_current_linewidth * FIG_default_thickness;
    if (FIG_thickness < 1)
	FIG_thickness = 1;
    FIG_color = DEFAULT;

    if (linetype <= LT_NODRAW)
	linetype = LT_BLACK;

    switch (linetype) {
    case 0:
    case LT_BLACK:{
	    FIG_type = SOLID_LINE;
	    FIG_spacing = 0.0;
	    if (FIG_use_color)
#if 0 /* fig's old color sequence */
		FIG_color = BLACK;
#else /* color sequence compatible to the postscript terminal */
		if (linetype==0) FIG_color = fig2pscolors[0]; /* red */
#endif
	    break;
	}
    case LT_AXIS:{
	    FIG_type = DOTTED_LINE;
            if( FIG_solid )
                FIG_type = SOLID_LINE;
	    FIG_spacing = 4.0;	/* gap */
	    if (FIG_use_color)
		FIG_color = BLACK;
	    break;
	}
    default:{
	    /* now linetype >= 1 --- shouldn't be negative anyway */
	    FIG_linedepth = FIG_depth + linetype / 1000;
	    linetype %= 1000;
	    /* Thickness of lines is either included in the linetype */
	    /* (in Fig units) or the default is scaled with the */
	    /* current 'linewidth'. */
	    if ((FIG_thickness = linetype / 100) == 0)
		FIG_thickness = FIG_current_linewidth * FIG_default_thickness;
	    if (FIG_thickness < 1)	/* Less than 1 would be invisible */
		FIG_thickness = 1;
	    linetype %= 100;
	    if (FIG_use_color) {
#if 0 /* fig's old color sequence */
		FIG_type = (linetype >= WHITE);		/* dashed line */
		FIG_color = linetype % WHITE;
		FIG_spacing = (linetype / WHITE) * 3;
#else /* color sequence compatible to the postscript terminal */
		FIG_type = (linetype >= npscolors);		/* dashed line */
		FIG_color = fig2pscolors[linetype % npscolors];
		FIG_spacing = (linetype / npscolors) * 3;
#endif
	    } else {		/* monochrome */
		FIG_type = (linetype)? linetype%2 + 1 : SOLID_LINE; /* dotted, dashed, ... */
		FIG_spacing = (linetype + 1) / 2 * 3;
	    }
            if( FIG_solid )
                FIG_type = SOLID_LINE;
	    break;
	}
    }
    if (FIG_type != last_FIG_type || FIG_spacing != last_FIG_spacing ||
	FIG_color != last_FIG_color || FIG_linedepth != last_FIG_depth ||
	FIG_thickness != last_FIG_thickness)
	FIG_poly_clean(FIG_polyvec_stat);
}

TERM_PUBLIC void
FIG_move(unsigned int x, unsigned int y)
{
    int last_FIG_posx = FIG_posx;
    int last_FIG_posy = FIG_posy;

    FIG_posx = x;
    FIG_posy = y;
    if (FIG_posx != last_FIG_posx || FIG_posy != last_FIG_posy)
	FIG_poly_clean(FIG_polyvec_stat);
}


TERM_PUBLIC void
FIG_vector(unsigned int ux, unsigned int uy)
{
    int x = ux, y = uy;

    if (FIG_polyvec_stat != FIG_poly_part) {
	FIG_line.pen_color = FIG_color;
	FIG_line.fill_color = FIG_color;
	FIG_line.style = FIG_type;
	FIG_line.style_val = FIG_spacing;
	FIG_line.depth = FIG_linedepth;
	FIG_line.thickness = FIG_thickness;
	FIG_poly_vec_cnt = 0;
	/* allocate memory for the first point */
	FIG_points = (F_point *) gp_realloc(FIG_points, sizeof(F_point), "FIG_points");		/* JFS */
	FIG_points[FIG_poly_vec_cnt].x = FIG_xoff + FIG_posx;
	FIG_points[FIG_poly_vec_cnt].y = term->ymax + FIG_yoff - FIG_posy;

	FIG_poly_vec_cnt = 1;
	FIG_polyvec_stat = FIG_poly_part;
    }
    /* allocate memory for the next point */
    FIG_points = (F_point *) gp_realloc(FIG_points, (FIG_poly_vec_cnt + 1) *
					sizeof(F_point), "FIG_points");		/* JFS */
    FIG_points[FIG_poly_vec_cnt].x = FIG_xoff + x;
    FIG_points[FIG_poly_vec_cnt].y = term->ymax + FIG_yoff - y;

    FIG_poly_vec_cnt++;
    if (FIG_poly_vec_cnt > FIG_poly_vec_max)
	FIG_poly_clean(FIG_polyvec_stat);

    FIG_posx = x;
    FIG_posy = y;
}


TERM_PUBLIC void
FIG_arrow(
    unsigned int sx, unsigned int sy, /* start coord */
    unsigned int ex, unsigned int ey, /* end coord */
    int head)
{
    int cap_style;
    double awidth, aheight;	/* arrow head sizes */

    FIG_poly_clean(FIG_polyvec_stat);
    cap_style = (FIG_line.style==DOTTED_LINE)? CAP_ROUND : FIG_line.cap_style;
    fprintf(gpoutfile, "%d %d %d %d %d %d %d %d %d %9.3f %d %d %d %d %d %d\n",
	    O_POLYLINE, FIG_line.type, FIG_type, FIG_thickness,
	    FIG_color, FIG_color, FIG_linedepth,
	    FIG_line.pen_style, FIG_line.fill_style, FIG_spacing,
	    FIG_line.join_style, cap_style, FIG_line.radius,
	    head ? 1 : 0, head==2 ? 1 : 0, 2);

    /* arrow head(s) */
    if (head) {
	unsigned int headbackangleparameter = 0;
	unsigned int headfillparameter = 0;

	/* arrow head size */
	if (curr_arrow_headlength==0) {
	    awidth  = (double) (term->h_tic / 2 + 1);
	    aheight = (double) term->h_tic;
	} else {
	    awidth  = (double) curr_arrow_headlength * 2*sin(curr_arrow_headangle*M_PI/180);
	    aheight = (double) curr_arrow_headlength * cos(curr_arrow_headangle*M_PI/180);
	}

	/* arrow head geometry */
	if ( curr_arrow_headbackangle < 70 )
	    headbackangleparameter = 2;
	else if ( curr_arrow_headbackangle > 110 )
	    headbackangleparameter = 3;
	else
	    headbackangleparameter = 1;

	if (curr_arrow_headfilled==2)
	    headfillparameter = 1;
	else
	    headfillparameter = 0;

	/* forward head */
	fprintf(gpoutfile, "%d %d %.3f %.3f %.3f\n",
		headbackangleparameter, headfillparameter,
		1.0, awidth, aheight);
	/* backward head */
	if (head==2)
	    fprintf(gpoutfile, "%d %d %.3f %.3f %.3f\n",
		    headbackangleparameter,  headfillparameter,
		    1.0, awidth, aheight);
    }

    /* arrow line */
    fprintf(gpoutfile, "%d %d %d %d\n",
	    FIG_xoff + sx, FIG_yoff + term->ymax - sy,
	    FIG_yoff + ex, FIG_yoff + term->ymax - ey);

    FIG_posx = ex;
    FIG_posy = ey;
}


TERM_PUBLIC void
FIG_put_text(unsigned int x, unsigned int y, const char *str)
{
    char *s1, *s2, *output_string;

    if (strlen(str) == 0)
	return;

    output_string = (char *) gp_alloc(2*strlen(str)+1, "FIG text");
    s1 = (char *)str;
    s2 = output_string;
    do {
	if (*s1 == '\\') *(s2++) = *s1;
	*(s2++) = *s1;
    } while ( *(s1++) );
    FIG_poly_clean(FIG_polyvec_stat);
    if (FIG_angle == 0.)
	y -= term->v_char / 2;	/* assuming vertical center justified */
    else {
	x += (int)(term->v_char*sin(FIG_angle)/4.);
	y -= (int)(term->v_char*cos(FIG_angle)/4.);
    }

    fprintf(gpoutfile, "%d %d %d %d %d %d %6.3f %6.3f %d %6.3f %6.3f %d %d %s\\001\n",
	    OBJ_TEXT, FIG_justify, FIG_color, 0, FIG_DEFAULT,
	    FIG_font_id, (float) FIG_font_s,
	    FIG_angle, FIG_text_flags, (float) term->v_char,
	    (float) term->h_char * strlen(str),
	    FIG_xoff + x, term->ymax + FIG_yoff - y, output_string);

    free(output_string);
}

TERM_PUBLIC int
FIG_justify_text(enum JUSTIFY mode)
{
    switch (mode) {
    case LEFT:
	FIG_justify = T_LEFT_JUSTIFIED;
	break;
    case CENTRE:
	FIG_justify = T_CENTER_JUSTIFIED;
	break;
    case RIGHT:
	FIG_justify = T_RIGHT_JUSTIFIED;
	break;
	/* shouldn't happen */
    default:
	FIG_justify = T_LEFT_JUSTIFIED;
	return (FALSE);
	break;
    }
    return (TRUE);
}

TERM_PUBLIC int
FIG_text_angle(int ang)
{
    FIG_angle = ang * M_PI_2 / 90. ;
    return (TRUE);
}

TERM_PUBLIC void
FIG_lpoint(unsigned int x, unsigned int y, int number)
{
    FIG_type = 0;		/* Solid lines for marker outline */
    if (number % 100 >= 49 && number % 100 < 99) {	/* circles, squares, triangles */
	int r, d, h, xpc, ypc;
	int line_color, fill_color, fill_style;
	int cnum, tnum, color, depth;

	FIG_poly_clean(FIG_polyvec_stat);
	depth = FIG_linedepth - 1;	/* Above error bars */
	if (number > 1000)
	    depth = FIG_depth + number / 1000 - 1;
	number %= 1000;
	if (depth < 0)
	    depth = 0;
	if (number < 100)
	    color = FIG_color;
	else if (FIG_use_color)
	    color = number / 100 - 1;
	else if (number / 100 >= WHITE)
	    color = WHITE;
	else
	    color = DEFAULT;
	number %= 100;
	cnum = (number + 1) % 10;
	tnum = (number - 49) / 10;
	if (cnum < 5)
	    line_color = (FIG_use_color ? BLACK : DEFAULT);
	else
	    line_color = FIG_color;
	fill_color = color;
	if (cnum == 0 || cnum == 5)
	    fill_style = -1;
	else
	    fill_style = (cnum % 5) * 5;

	xpc = FIG_xoff + x;
	ypc = term->ymax + FIG_yoff - y;

	if (tnum == 0) {	/* circle */
	    r = FIG_current_pointsize * term->v_char / 4 + 1;
	    fprintf(gpoutfile,
		    "1 3 %d %d %d %d %d %d %d %6.3f 1 0.000 %d %d %d %d %d %d %d %d\n",
		    FIG_type, FIG_thickness, line_color,
		    fill_color, depth, 0, fill_style, FIG_spacing,
		    xpc, ypc, r, r, xpc, ypc, xpc, ypc - r);
	} else {
	    fprintf(gpoutfile, "2 3 %d %d %d %d %d %d %d %6.3f 0 0 0 0 0 ",
		    FIG_type, FIG_thickness, line_color,
		    fill_color, depth, 0, fill_style, FIG_spacing);

	    if (tnum == 1) {	/* square */
		d = FIG_current_pointsize * term->v_char / 4 + 1;
		fprintf(gpoutfile, "5\n\t%d %d %d %d %d %d %d %d %d %d\n",
			xpc - d, ypc - d, xpc - d, ypc + d, xpc + d, ypc + d, xpc + d, ypc - d,
			xpc - d, ypc - d);
	    } else if (tnum == 2) {	/* diamond */
		d = FIG_current_pointsize * term->v_char / 3 + 1;
		fprintf(gpoutfile, "5\n\t%d %d %d %d %d %d %d %d %d %d\n",
			xpc - d, ypc, xpc, ypc + d, xpc + d, ypc, xpc, ypc - d, xpc - d, ypc);
	    } else if (tnum == 3) {	/* triangle up */
		d = FIG_current_pointsize * term->v_char / 3 + 1;
		h = d * 4 / 7;	/* About d times one 3rd of sqrt(3) */
		fprintf(gpoutfile, "4\n\t%d %d %d %d %d %d %d %d\n",
			xpc - d, ypc + h, xpc, ypc - 2 * h, xpc + d, ypc + h, xpc - d, ypc + h);
	    } else if (tnum == 4) {	/* triangle down */
		d = FIG_current_pointsize * term->v_char / 3 + 1;
		h = d * 4 / 7;
		fprintf(gpoutfile, "4\n\t%d %d %d %d %d %d %d %d\n",
			xpc - d, ypc - h, xpc, ypc + 2 * h, xpc + d, ypc - h, xpc - d, ypc - h);
	    }
	}
    } else {
	int pt = number % 13;
	switch (pt) {
	default:	do_point(x, y, pt); break;
	case 3: 	FIG_lpoint(x, y, 64); break;
	case 4: 	FIG_lpoint(x, y, 68); break;
	case 5: 	FIG_lpoint(x, y, 54); break;
	case 6: 	FIG_lpoint(x, y, 58); break;
	case 7: 	FIG_lpoint(x, y, 84); break;
	case 8: 	FIG_lpoint(x, y, 88); break;
	case 9: 	FIG_lpoint(x, y, 94); break;
	case 10:	FIG_lpoint(x, y, 98); break;
	case 11: 	FIG_lpoint(x, y, 74); break;
	case 12:	FIG_lpoint(x, y, 78); break;
	}
    }
}

TERM_PUBLIC void
FIG_pointsize(double arg_pointsize)
{
    FIG_current_pointsize = arg_pointsize < 0. ? 1. : arg_pointsize;
    /* Bug-fix by hkeller@gwdg.de and K.B.: set pointsize for do_point() */
    do_pointsize(arg_pointsize * FIG_font_s / (double) FIG_FONT_S);
}

TERM_PUBLIC void
FIG_linewidth(double linewidth)
{
    FIG_current_linewidth = linewidth;
}

TERM_PUBLIC void
FIG_reset()
{
    FIG_poly_clean(FIG_polyvec_stat);
    FIG_posx = FIG_posy = 0;
    fflush(gpoutfile);
}

TERM_PUBLIC void
FIG_boxfill(
    int style,
    unsigned int x, unsigned int y,
    unsigned int w, unsigned int h)
{
    int pen_color, fill_color, fill_style, fill_dens;

    FIG_poly_clean(FIG_polyvec_stat);

    FIG_line.pen_color = FIG_color;

    switch( style & 0xf ) {
    case FS_SOLID:
    case FS_TRANSPARENT_SOLID:
	/* style == 1 --> filled with intensity according to filldensity */
        pen_color = FIG_line.pen_color;
        fill_color = FIG_line.pen_color;
        fill_dens = style >> 4;
        if( fill_dens < 0 ) fill_dens = 0;
        if( fill_dens > 100 ) fill_dens = 100;
        if( FIG_color == -1 || FIG_color == 0 )
            /* default color or black: solid 0%...100% -> 0...20 */
            fill_style = fill_dens / 5;
        else
            /* all other colors: solid 0%...100% -> 40...20 */
            fill_style = 40 - fill_dens / 5;
        break;
    case FS_PATTERN:
    case FS_TRANSPARENT_PATTERN:
	/* style == 2 --> filled with pattern according to fillpattern */
        pen_color = FIG_line.pen_color;
        fill_color = WHITE;
        fill_style = 41 + ( ( (style>>4) < 0 ) ? 0 : style>>4 );
        break;
    case FS_EMPTY:
    default:
	/* style == 0 or unknown --> filled with background color */
        pen_color = FIG_line.pen_color;
        fill_color = WHITE;
        fill_style = 20;
    }

    x = FIG_xoff + x;
    y = term->ymax + FIG_yoff - y;

    fprintf(gpoutfile, "%d %d %d %d %d %d %d %d %d %6.3f %d %d %d %d %d %d\n"
            "  %d %d %d %d %d %d %d %d %d %d\n",
            O_POLYLINE, FIG_line.type, FIG_line.style, FIG_line.thickness,
            pen_color, fill_color, FIG_line.depth, FIG_line.pen_style,
            fill_style, FIG_line.style_val, FIG_line.join_style,
            FIG_line.cap_style, FIG_line.radius, 0, 0, 5,
            x, y, x+w, y, x+w, y-h, x, y-h, x, y );
}

TERM_PUBLIC int FIG_make_palette(t_sm_palette *palette)
{
    int i;

    /* Query to determine palette size */
    if (palette==NULL) {
	return FIG_palette_size; /* How big is palette ? */
    }

    FIG_poly_clean(FIG_polyvec_stat); /* Clean up current data */

    if (FIG_palette_set == FALSE) {
	/* Create new palette */
	FIG_palette_set = TRUE;
	if (FIG_use_color == FALSE || sm_palette.colorMode == SMPAL_COLOR_MODE_GRAY) {
	    /* Gray palette */
	    if (FIG_use_color == FALSE && sm_palette.colorMode == SMPAL_COLOR_MODE_RGB)
		fprintf(stderr,	"Monochrome fig file: using gray palette instead of color\n");
	    for (i = 0; i < sm_palette.colors; i++) {
		int j = (int)(i * 255.0 / (sm_palette.colors-1) + 0.5);
		fprintf(gpoutfile, "%d %d #%2.2x%2.2x%2.2x\n",
		O_COLOR_DEF, (i + FIG_palette_offst), j, j, j);
	    }
	} else {
	    /* Create colour/normal palette */
	    for (i = 0; i < sm_palette.colors; i++) {
		fprintf(gpoutfile, "%d %d #%2.2x%2.2x%2.2x\n",
		O_COLOR_DEF, (i + FIG_palette_offst),
		(int)( palette->color[i].r * 255 + 0.5 ),
		(int)( palette->color[i].g * 255 + 0.5 ),
		(int)( palette->color[i].b * 255 + 0.5 ) );

		FIG_RGB_colors[FIG_palette_offst - FIG_rgb_color_offset + i] =
		    (int)( palette->color[i].r * 255 + 0.5 ) << 16 |
		    (int)( palette->color[i].g * 255 + 0.5 ) << 8  |
		    (int)( palette->color[i].b * 255 + 0.5 );
	    }
	}
    } else {
	fprintf(stderr, "fig: Attempt to set palette twice\n");
    }
    return 0;
}

/* This doesn't apply for FIG format files
TERM_PUBLIC void FIG_previous_palette()
{
}
*/

TERM_PUBLIC void FIG_set_color(t_colorspec *colorspec)
{
    double gray = colorspec->value;
    int new_color = FIG_color;
    int i;
    unsigned rgbval;

    switch (colorspec->type) {
    case TC_LT:
	    FIG_linetype(colorspec->lt);
	    return;

    case TC_FRAC:
	    new_color = (gray <= 0) ? 0 : (int)(gray * sm_palette.colors);
	    if (new_color >= FIG_palette_size)
		new_color = FIG_palette_size - 1;
	    if (FIG_palette_set == FALSE)
		int_warn(NO_CARET,"fig: Palette used before set\n");
	    new_color += FIG_palette_offst;
	    break;

    case TC_RGB:
	    /* Look through all of user colors, named colors, and palette colors */
	    rgbval = colorspec->lt & 0xffffff;
	    if (rgbval == 0) {
		new_color = BLACK;
		break;
	    }
	    for (i = 0; i < 256; i++) {
		if (rgbval == FIG_RGB_colors[i]) {
		    new_color = FIG_rgb_color_offset + i;
		    break;
		}
	    }
	    break;

    default:
	    break;
    }

    if (FIG_color != new_color) {
	FIG_poly_clean(FIG_polyvec_stat);
	FIG_color = new_color;
    }
}

TERM_PUBLIC void FIG_filled_polygon(int points, gpiPoint *corners)
{
    int i,j;

    FIG_poly_clean(FIG_polyvec_stat); /* Clean up current data */

    fprintf(gpoutfile, "%d %d %d %d %d %d %d %d %d %9.3f %d %d %d %d %d %ld\n\t",
	O_POLYLINE, T_POLYGON, FIG_line.style, 0,
	FIG_color, FIG_color, FIG_line.depth,
	FIG_line.pen_style, FIG_fill_style, FIG_line.style_val,
	FIG_line.join_style, FIG_line.cap_style, FIG_line.radius,
	0, 0, (long)(points+1));
/* set thickness (arg 4) to 0 */

    j = 0;
    for (i = 0; i < points; i++) {
	fprintf(gpoutfile, " %d %d", FIG_xoff + corners[i].x,
	    term->ymax + FIG_yoff - corners[i].y);
	if (j++ > 4 && i != points - 1) {
		fputs("\n\t", gpoutfile);
		j = 0;		/* JFS */
	}
    }
    fprintf(gpoutfile, " %d %d", FIG_xoff + corners[0].x,
	term->ymax + FIG_yoff - corners[0].y);
    j++;
    if (j != 0) {
	putc('\n', gpoutfile);
    }
}

TERM_PUBLIC void
FIG_layer(t_termlayer syncpoint)
{
    static int plotno = 0;

    /* We must ignore all syncpoints that we don't recognize */
    switch (syncpoint) {

	default:
		break;
	
	case TERM_LAYER_BEFORE_PLOT:
		FIG_poly_clean(FIG_polyvec_stat);
		fputs("6", gpoutfile);
		/* Bounding box?  Give it the entire plot area */
		fprintf(gpoutfile, " %d %d %d %d\n",
			FIG_xoff + plot_bounds.xleft, 
			term->ymax + FIG_yoff - plot_bounds.ytop,
			FIG_xoff + plot_bounds.xright, 
			term->ymax + FIG_yoff - plot_bounds.ybot);
		fprintf(gpoutfile, "# Begin plot #%d\n", ++plotno);
		break;
	
	case TERM_LAYER_AFTER_PLOT:
		FIG_poly_clean(FIG_polyvec_stat);
		fprintf(gpoutfile, "# End plot #%d\n", plotno);
		fputs("-6\n", gpoutfile);
		break;
	
	case TERM_LAYER_RESET:
		plotno = 0;
		break;

    }
}

#endif /* TERM_BODY */

#ifdef TERM_TABLE

TERM_TABLE_START(fig_driver)
    "fig", "FIG graphics language for XFIG graphics editor",
    FIG_XMAX(INCH), FIG_YMAX(INCH), FIG_VCHAR, FIG_HCHAR,
    FIG_VTIC(INCH), FIG_HTIC(INCH), FIG_options, FIG_init, FIG_reset,
    FIG_text, null_scale, FIG_graphics, FIG_move, FIG_vector,
    FIG_linetype, FIG_put_text, FIG_text_angle, FIG_justify_text,
    FIG_lpoint, FIG_arrow, set_font_null, FIG_pointsize,
    TERM_BINARY|TERM_CAN_DASH /*flags */ ,
    0 /*suspend */ , 0 /*resume */ ,
    FIG_boxfill, FIG_linewidth
#ifdef USE_MOUSE
    ,0, 0, 0, 0, 0 /* no mouse support for the fig terminal */
#endif
    , FIG_make_palette, 0 /*previous_palette*/, FIG_set_color, FIG_filled_polygon
    , 0
    , 0, 0, 0	/* no enhanced text support */
    , FIG_layer
TERM_TABLE_END(fig_driver)

#undef LAST_TERM
#define LAST_TERM fig_driver
#endif /* TERM_TABLE */
#endif /* TERM_PROTO_ONLY */

#ifdef TERM_HELP
START_HELP(fig)
"1 fig",
"?commands set terminal fig",
"?set terminal fig",
"?set term fig",
"?terminal fig",
"?term fig",
"?fig",
"?xfig",
" The `fig` terminal device generates output in the Fig graphics language.",
"",
" Syntax:",
"       set terminal fig {monochrome | color}",
"                        {landscape | portrait}",
"                        {small | big | size <xsize> <ysize>}",
"                        {metric | inches}",
"                        {pointsmax <max_points>}",
"                        {solid | dashed}",
"                        {font \"<fontname>{,<fontsize>}\"}",
"                        {textnormal | {textspecial texthidden textrigid}}",
"                        {{thickness|linewidth} <units>}",
"                        {depth <layer>}",
"                        {version <number>}",
"",
" `monochrome` and `color` determine whether the picture is black-and-white or",
" `color`.  `small` and `big` produce a 5x3 or 8x5 inch graph in the default",
" `landscape` mode and 3x5 or 5x8 inches in `portrait` mode.",
" `size` sets (overrides) the size of the drawing",
" area to <xsize>*<ysize> in units of inches or centimeters depending on the",
" `inches` or `metric` setting in effect.",
" The latter settings is also used as default units for editing with \"xfig\".",
"",
" `pointsmax <max_points>` sets the maximum number of points per polyline.",
"",
" `solid` inhibits automatic usage of `dash`ed lines when solid linestyles are",
" used up, which otherwise occurs.",
"",
" `font` sets the text font face to <fontname> and its size to <fontsize>",
" points. `textnormal` resets the text flags and selects postscript fonts,",
" `textspecial` sets the text flags for LaTeX specials, `texthidden` sets the",
" hidden flag and `textrigid` the rigid flag.",
"",
" `depth` sets the default depth layer for all lines and text.  The default",
" depth is 10 to leave room for adding material with \"xfig\" on top of the",
" plot.",
"",
" `version` sets the format version of the generated fig output. Currently",
" only versions 3.1 and 3.2 are supported.",
"",
" `thickness` sets the default line thickness, which is 1 if not specified.",
" Overriding the thickness can be achieved by adding a multiple of 100 to the",
" `linetype` value for a `plot` command.  In a similar way the `depth`",
" of plot elements (with respect to the default depth) can be controlled by",
" adding a multiple of 1000 to <linetype>.  The depth is then <layer> +",
" <linetype>/1000 and the thickness is (<linetype>%1000)/100 or, if that is",
" zero, the default line thickness. `linewidth` is a synonym for `thickness`.",
"",
" Additional point-plot symbols are also available with the `fig` driver. The",
" symbols can be used through `pointtype` values % 100 above 50, with different",
" fill intensities controlled by <pointtype> % 5 and outlines in black (for",
" <pointtype> % 10 < 5) or in the current color.  Available symbols are",
"         50 - 59:  circles",
"         60 - 69:  squares",
"         70 - 79:  diamonds",
"         80 - 89:  upwards triangles",
"         90 - 99:  downwards triangles",
" The size of these symbols is linked to the font size.  The depth of symbols",
" is by default one less than the depth for lines to achieve nice error bars.",
" If <pointtype> is above 1000, the depth is <layer> + <pointtype>/1000-1.  If",
" <pointtype>%1000 is above 100, the fill color is (<pointtype>%1000)/100-1.",
"",
" Available fill colors are (from 1 to 9): black, blue, green, cyan, red,",
" magenta, yellow, white and dark blue (in monochrome mode: black for 1 to 6",
" and white for 7 to 9).",
"",
" See `plot with` for details of <linetype> and <pointtype>.",
"",
" The `big` option is a substitute for the `bfig` terminal in earlier versions,",
" which is no longer supported.",
"",
" Examples:",
"       set terminal fig monochrome small pointsmax 1000  # defaults",
"",
"       plot 'file.dat' with points linetype 102 pointtype 759",
" would produce circles with a blue outline of width 1 and yellow fill color.",
"",
"       plot 'file.dat' using 1:2:3 with err linetype 1 pointtype 554",
" would produce errorbars with black lines and circles filled red.  These",
" circles are one layer above the lines (at depth 9 by default).",
"",
" To plot the error bars on top of the circles use",
"       plot 'file.dat' using 1:2:3 with err linetype 1 pointtype 2554"
END_HELP(fig)
#endif /* TERM_HELP */




#if 0

/* I hope this is enough to stop compilers looking in here
 * (I think that anything inside #if 0 is still strictly
 *  required to be valid C, rather than just any old junk
 *  like this.)
 */

/*
 * FIG : Facility for Interactive Generation of figures
 * Copyright (c) 1985 by Supoj Sutanthavibul
 * Parts Copyright (c) 1994 by Brian V. Smith
 * Parts Copyright (c) 1991 by Paul King
 *
 * The X Consortium, and any party obtaining a copy of these files from
 * the X Consortium, directly or indirectly, is granted, free of charge, a
 * full and unrestricted irrevocable, world-wide, paid up, royalty-free,
 * nonexclusive right and license to deal in this software and
 * documentation files (the "Software"), including without limitation the
 * rights to use, copy, modify, merge, publish, distribute, sublicense,
 * and/or sell copies of the Software, and to permit persons who receive
 * copies from any such party to do so, with the only requirement being
 * that this copyright notice remain intact.  This license includes without
 * limitation a license to do the foregoing actions under any patents of
 * the party supplying this software to the X Consortium.
 */

/*
The only difference from version 3.0 to version 3.1 is that the position
of the "magnet" has been shifted by 14 Fig units.
In the 2.1 and older versions of xfig the grid was in multiples of 5 Fig
units, but they were on intervals 4, 9, 14, 19, etc.
When version 3.0 was created, coordinates were simply multiplied by the
ratio of the resolutions (1200/80 = 15) so values like 4 became 60 instead
of 74 ((4+1)*15 - 1).

This means that figures converted from 2.1 and older files are offset by
14 Fig units but new objects entered with version 3.0 are correct.

In version 3.1 the magnet grid is at intervals 0, 75, 150, etc instead of
-1, 74, 149, etc.
Figures from 2.1 and older are correctly converted now and a warning is popped
up when you read in a version 3.0 file that says you may have to offset the
figure when you load it, using the x and y offsets in the file panel.

--------------------------------------------------------------------------------
Description of the Fig Format Follows
--------------------------------------------------------------------------------

 (1) The very first line is a comment line containing the name and version:
	#FIG 3.1

    The character # at the first column of a line indicates that the line
    is a comment line which will be ignored.

 (2) The first non-comment line consists of two numbers and two strings:

	int	fig_resolution		(Fig units/inch)
	string	orientation		("Landscape" or "Portrait")
	string	justification		("Center" or "Flush Left")
	string	units			("Metric" or "Inches")
	int	coordinate_system	(1: origin is the lower left corner (NOT USED)
					 2: upper left)

    Fig_resolution is the resolution of the figure in the file.
    Xfig will always write the file with a resolution of 1200ppi so it
    will scale the figure upon reading it in if its resolution is different
    from 1200ppi.  Pixels are assumed to be square.

    Xfig will read the orientation string and change the canvas to match
    either the Landscape or Portrait mode of the figure file.

    The units specification is self-explanatory.

    The coordinate_system variable is ignored - the origin is ALWAYS the
    upper-left corner.

    ** Coordinates are given in "fig_resolution" units.
    ** Line thicknesses are given in 1/80 of an inch ("display units").  The
       minimum line thickness is 0 (no line is drawn) and the maximum is 500.
    ** dash-lengths/dot-gaps are given in 1/80 of an inch.


 (3) The rest of the file contains various objects.  An object can be one
    of six classes (or types).

	0)	Color pseudo-object.
	1)	Arc.
	2)	Ellipse which is a generalization of circle.
	3)	Polyline which includes polygon and box.
	4)	Spline which includes closed/open control/interpolated spline.
	5)	Text.
	6)	Compound object which is composed of one or more objects.

    In the following elaboration on object formats, every value of Fig
    output are separated by blank characters or new line ('\n').  The
    value of the unused parameters will be -1.

    Some fields are described as "enumeration type" or "bit vector"; the
    values which these fields can take are defined in the header file object.h.
    The pen_style field is unused.
    These values may be defined in some future version of Fig.

    The two color fields (pen and fill; pen only, for texts) are
    defined as follows:

	    -1 = Default
	     0 = Black
	     1 = Blue
	     2 = Green
	     3 = Cyan
	     4 = Red
	     5 = Magenta
	     6 = Yellow
	     7 = White
	  8-11 = four shades of blue (dark to lighter)
	 12-14 = three shades of green (dark to lighter)
	 15-17 = three shades of cyan (dark to lighter)
	 18-20 = three shades of red (dark to lighter)
	 21-23 = three shades of magenta (dark to lighter)
	 24-26 = three shades of brown (dark to lighter)
	 27-30 = four shades of pink (dark to lighter)
	    31 = Gold

	 values from 32 to 543 (512 total) are user colors and
	 are defined in color pseudo-objects (type 0)

    For WHITE color, the area fill field is defined as follows:

	-1 = not filled
	 0 = black
	...  values from 1 to 19 are shades of grey, from darker to lighter
	20 = white
	21-40 not used
	41-56 see patterns for colors, below

    For BLACK or DEFAULT color, the area fill field is defined as follows:

	-1 = not filled
	 0 = white
	...  values from 1 to 19 are shades of grey, from lighter to darker
	20 = black
	21-40 not used
	41-56 see patterns for colors, below

    For all other colors, the area fill field is defined as follows:

	-1 = not filled
	 0 = black
	...  values from 1 to 19 are "shades" of the color, from darker to lighter.
		A shade is defined as the color mixed with black
	20 = full saturation of the color
	...  values from 21 to 39 are "tints" of the color from the color to white.
		A tint is defined as the color mixed with white
	40 = white
	41 = 30 degree left diagonal pattern
	42 = 30 degree right diagonal pattern
	43 = 30 degree crosshatch
	44 = 45 degree left diagonal pattern
	45 = 45 degree right diagonal pattern
	46 = 45 degree crosshatch
	47 = bricks
	48 = circles
	49 = horizontal lines
	50 = vertical lines
	51 = crosshatch
	52 = fish scales
	53 = small fish scales
	54 = octagons
	55 = horizontal "tire treads"
	56 = vertical "tire treads"

    The depth field is defined as follows:

	 0 ... 999 where larger value means object is deeper than (under)
		   objects with smaller depth

    The line_style field is defined as follows:

	-1 = Default
	 0 = Solid
	 1 = Dashed
	 2 = Dotted

    The style_val field is defined as the length, in 1/80 inches, of the on/off
    dashes for dashed lines, and the distance between the dots, in 1/80 inches,
    for dotted lines.

    The join_style field is defined FOR LINES only as follows:

	 0 = Miter (the default in xfig 2.1 and earlier)
	 1 = Bevel
	 2 = Round

    The cap_style field is defined FOR LINES, OPEN SPLINES and ARCS only as follows:

	 0 = Butt (the default in xfig 2.1 and earlier)
	 1 = Round
	 2 = Projecting

    The arrow_type field is defined for LINES, ARCS and OPEN SPLINES
    only as follows:

	 0 = Stick-type (the default in xfig 2.1 and earlier)
	 1 = Closed triangle:
		|\
		|  \
		|    \
		|    /
		|  /
		|/
	 2 = Closed with "indented" butt:
		|\
		\  \
		 \   \
		  \    \
		  /    /
		 /   /
		/  /
		|/
	 3 = Closed with "pointed" butt:
		   |\
		  /   \
		 /      \
		/         \
		\         /
		 \      /
		  \   /
		   |/

    The arrow_style field is defined for LINES, ARCS and OPEN SPLINES
    only as follows:

	 0 = Hollow (actually filled with white)
	 1 = Filled with pen_color

 (3.0) OBJECT DEFINITION:

    (3.1) Color Pseudo-objects (user-defined colors)
	  This is used to define arbitrary colors beyond the 32 standard colors.
	  The color objects must be defined before any other Fig objects.

    First line:
	type	name			(brief description)
	----	----			-------------------
	int	object_code		(always 0)
	int	color_number		(color number, from 32-543 (512 total))
     hex string	rgb values		(hexadecimal string describing red,
					 green and blue values (e.g. #330099) )

    (3.2) ARC

    First line:
	type	name			(brief description)
	----	----			-------------------
	int	object_code		(always 5)
	int	sub_type		(0: pie-wedge (closed)
					 1: open ended arc)
	int	line_style		(enumeration type)
	int	line_thickness		(1/80 inch)
	int	pen_color		(enumeration type, pen color)
	int	fill_color		(enumeration type, fill color)
	int	depth			(enumeration type)
	int	pen_style		(pen style, not used)
	int	area_fill		(enumeration type, -1 = no fill)
	float	style_val		(1/80 inch)
	int	cap_style		(enumeration type)
	int	direction		(0: clockwise, 1: counterclockwise)
	int	forward_arrow		(0: no forward arrow, 1: on)
	int	backward_arrow		(0: no forward arrow, 1: on)
	float	center_x, center_y	(center of the arc)
	int	x1, y1			(Fig units, the 1st point the user entered)
	int	x2, y2			(Fig units, the 2nd point)
	int	x3, y3			(Fig units, the last point)

    Forward arrow line (Optional; absent if forward_arrow is 0):
	type	name			(brief description)
	----	----			-------------------
	int	arrow_type		(enumeration type)
	int	arrow_style		(enumeration type)
	float	arrow_thickness		(1/80 inch)
	float 	arrow_width		(Fig units)
	float	arrow_height		(Fig units)

    Backward arrow line (Optional; absent if backward_arrow is 0):
	type	name			(brief description)
	----	----			-------------------
	int	arrow_type		(enumeration type)
	int	arrow_style		(enumeration type)
	float	arrow_thickness		(1/80 inch)
	float	arrow_width		(Fig units)
	float	arrow_height		(Fig units)

    (3.3) COMPOUND

    A line with object code 6 signifies the start of a compound.
    There are four more numbers on this line which indicate the
    upper right corner and the lower left corner of the bounding
    box of this compound.  A line with object code -6 signifies
    the end of the compound.  Compound may be nested.

    First line:
	type	name			(brief description)
	----	----			-------------------
	int	object_code		(always 6)
	int	upperright_corner_x	(Fig units)
	int	upperright_corner_y	(Fig units)
	int	lowerleft_corner_x	(Fig units)
	int	lowerleft_corner_y	(Fig units)

    Subsequent lines:
	objects
	.
	.

    Last line:
	-6

    (3.4) ELLIPSE

    First line:
	type	name			(brief description)
	----	----			-------------------
	int	object_code		(always 1)
	int	sub_type		(1: ellipse defined by radiuses
					 2: ellipse defined by diameters
					 3: circle defined by radius
					 4: circle defined by diameter)
	int	line_style		(enumeration type)
	int	thickness		(1/80 inch)
	int	pen_color		(enumeration type, pen color)
	int	fill_color		(enumeration type, fill color)
	int	depth			(enumeration type)
	int	pen_style		(pen style, not used)
	int	area_fill		(enumeration type, -1 = no fill)
	float	style_val		(1/80 inch)
	int	direction		(always 1)
	float	angle			(radians, the angle of the x-axis)
	int	center_x, center_y	(Fig units)
	int	radius_x, radius_y	(Fig units)
	int	start_x, start_y	(Fig units; the 1st point entered)
	int	end_x, end_y		(Fig units; the last point entered)

    (3.5) POLYLINE

    First line:
	type	name			(brief description)
	----	----			-------------------
	int	object_code		(always 2)
	int	sub_type		(1: polyline
					 2: box
					 3: polygon
					 4: arc-box)
					 5: imported-picture bounding-box)
	int	line_style		(enumeration type)
	int	thickness		(1/80 inch)
	int	pen_color		(enumeration type, pen color)
	int	fill_color		(enumeration type, fill color)
	int	depth			(enumeration type)
	int	pen_style		(pen style, not used)
	int	area_fill		(enumeration type, -1 = no fill)
	float	style_val		(1/80 inch)
	int	join_style		(enumeration type)
	int	cap_style		(enumeration type, only used for POLYLINE)
	int	radius			(1/80 inch, radius of arc-boxes)
	int	forward_arrow		(0: off, 1: on)
	int	backward_arrow		(0: off, 1: on)
	int	npoints			(number of points in line)

    Forward arrow line: same as ARC object

    Backward arrow line: same as ARC object

    Points line:
	type	name			(brief description)
	----	----			-------------------
	int	x1, y1			(Fig units)
	int	x2, y2			(Fig units)
	  .
	  .
	int	xnpoints ynpoints	(this will be the same as the 1st
					point for polygon and box)

    PIC line:
	type	name			(brief description)
	----	----			-------------------
	boolean	flipped			orientation = normal (0) or flipped (1)
	char	file[]			name of picture file to import

    (3.6) SPLINE

    First line:
	type	name			(brief description)
	----	----			-------------------
	int	object_code		(always 3)
	int	sub_type		(0: open spline
					 1: closed spline
					 2: open interpolated spline
					 3: closed interpolated spline)
	int	line_style		(See the end of this section)
	int	thickness		(1/80 inch)
	int	pen_color		(enumeration type, pen color)
	int	fill_color		(enumeration type, fill color)
	int	depth			(enumeration type)
	int	pen_style		(pen style, not used)
	int	area_fill		(enumeration type, -1 = no fill)
	float	style_val		(1/80 inch)
	int	cap_style		(enumeration type, only used for open splines)
	int	forward_arrow		(0: off, 1: on)
	int	backward_arrow		(0: off, 1: on)
	int	npoints			(number of control points in spline)

    Forward arrow line: same as ARC object

    Backward arrow line: same as ARC object

    Points line: same as POLYLINE object

    Control points line (absent if sub_type is 0 or 1):
	Control points of interpolated spline.  There are two control
	points for each knots.  A section i, of the spline is drawn
	using Bezier cubic with the following four points:
		(x ,y ), (rx ,ry ), (lx	  , ly   ), (x   , y   ).
		  i  i	    i	i      i+1    i+1     i+1   i+1
	For closed interpolated spline the last pair of control points,
	(lxnpoints,lynpoints) and (rxnpoints,rynpoints) (which can be ignored),
	are the same as (lx1,ly1) and (rx1,ry1) respectively.

	type	name			(brief description)
	----	----			-------------------
	float	lx1, ly1		(Fig units)
	float	rx1, ry1		(Fig units)
	float	lx2, ly2		(Fig units)
	float	rx2, ry2		(Fig units)
	  .
	  .
	float	lxnpoints, lynpoints	(Fig units)
	float	rxnpoints, rynpoints	(Fig units)

    (3.7) TEXT
	type	name			(brief description)
	----	----			-------------------
	int	object 			(always 4)
	int	sub_type		(0: Left justified
					 1: Center justified
					 2: Right justified)
	int	color			(enumeration type)
	int	depth			(enumeration type)
	int	pen_style		(enumeration , not used)
	int	font 			(enumeration type)
	float	font_size 		(font size in points)
	float	angle			(radians, the angle of the text)
	int	font_flags		(bit vector)
	float	height			(Fig units)
	float	length			(Fig units)
	int	x, y			(Fig units, coordinate of the origin
					 of the string.  If sub_type = 0, it is
					 the lower left corner of the string.
					 If sub_type = 1, it is the lower
					 center.  Otherwise it is the lower
					 right corner of the string.)
	char	string[]		(ASCII characters; starts after a blank
					 character following the last number and
					 ends before the sequence '\001'.  This
					 sequence is not part of the string.
					 Characters above octal 177 are
					 represented by \xxx where xxx is the
					 octal value.  This permits Fig files to
					 be edited with 7-bit editors and sent
					 by e-mail without data loss.
					 Note that the string may contain '\n'.)

    The font_flags field is defined as follows:

	 Bit	Description

	  0	Rigid text (text doesn't scale when scaling compound objects)
	  1	Special text (for LaTeX)
	  2	PostScript font (otherwise LaTeX font is used)
	  3	Hidden text

    The font field is defined as follows:

	For font_flags bit 2 = 0 (LaTeX fonts):

	 0	Default font
	 1	Roman
	 2	Bold
	 3	Italic
	 4	Sans Serif
	 5	Typewriter

	For font_flags bit 3 = 1 (PostScript fonts):

	-1	Default font
	 0	Times Roman
	 1	Times Italic
	 2	Times Bold
	 3	Times Bold Italic
	 4	AvantGarde Book
	 5	AvantGarde Book Oblique
	 6	AvantGarde Demi
	 7	AvantGarde Demi Oblique
	 8	Bookman Light
	 9	Bookman Light Italic
	10	Bookman Demi
	11	Bookman Demi Italic
	12	Courier
	13	Courier Oblique
	14	Courier Bold
	15	Courier Bold Oblique
	16	Helvetica
	17	Helvetica Oblique
	18	Helvetica Bold
	19	Helvetica Bold Oblique
	20	Helvetica Narrow
	21	Helvetica Narrow Oblique
	22	Helvetica Narrow Bold
	23	Helvetica Narrow Bold Oblique
	24	New Century Schoolbook Roman
	25	New Century Schoolbook Italic
	26	New Century Schoolbook Bold
	27	New Century Schoolbook Bold Italic
	28	Palatino Roman
	29	Palatino Italic
	30	Palatino Bold
	31	Palatino Bold Italic
	32	Symbol
	33	Zapf Chancery Medium Italic
	34	Zapf Dingbats
*/

#endif
